The L-platform/L-scaffold framework: A blueprint for RNA-cleaving nucleic acid enzyme design

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Abstract

We develop an L-platform/L-scaffold framework we hypothesize may serve as a blueprint to facilitate site-specific RNA-cleaving nucleic acid enzyme design. Building on the L-platform motif originally described by Suslov and coworkers, we identify new critical scaffolding elements required to anchor a conserved general base guanine (“L-anchor”) and bind functionally important metal ions at the active site (“L-pocket”). Molecular simulations, together with a broad range of experimental structural and functional data, connect the L-platform/L-scaffold elements to necessary and sufficient conditions for catalytic activity. We demonstrate that the L-platform/L-scaffold framework is common to five of the nine currently known naturally occurring ribozyme classes (Twr, HPr, VSr, HHr, Psr), and intriguingly from a design perspective, the framework also appears in an artificially engineered DNAzyme (8–17dz). The flexibility of the L-platform/L-scaffold framework is illustrated on these systems, highlighting modularity and trends in the variety of known general acid moieties that are supported. These trends give rise to two distinct catalytic paradigms, building on the classifications proposed by Wilson and coworkers and named for the implicated general base and acid. The “G + A” paradigm (Twr, HPr, VSr) exclusively utilizes nucleobase residues for chemistry, and the “G + M +” paradigm (HHr, 8–17dz, Psr) involves structuring of the “L-pocket” metal ion binding site for recruitment of a divalent metal ion that plays an active role in the chemical steps of the reaction. Finally, the modularity of the L-platform/L-scaffold framework is illustrated in the VS ribozyme where the “L-pocket” assumes the functional role of the “L-anchor” element, highlighting a distinct mechanism, but one that is functionally linked with the hammerhead ribozyme.

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Gaines, C. S., Piccirilli, J. A., & York, D. M. (2020). The L-platform/L-scaffold framework: A blueprint for RNA-cleaving nucleic acid enzyme design. RNA, 26(2), 111–125. https://doi.org/10.1261/rna.071894.119

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